Browsing by Subject "Taking Stock - Native Issues"
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Item American Indian Gathering and Recreation Uses of National Forests(2004) McAvoy, Leo; Shirilla, Paul; Flood, JosephThis paper identifies and describes the patterns of use of the Chippewa National Forest (Minnesota) by Leech Lake Band of Ojibwe members; and, the use patterns of six national forests in northwest Montana by the Confederated Salish and Kootenai Tribes. The paper also identifies conflicts tribal members encounter while using the forests and makes recommendations regarding the management of national forests in light of tribal members' use of these lands. The implications from both study areas indicate that Forest Service managers should pay more attention to cooperative approaches, and potential co-management of forest resources that are near American Indian reservations. Managers need to be more sensitive to American Indians' uses and values associated with national forests and other protected lands that are close to reservations. They also need to be aware of the history of government and tribal relations, as well as tribal member traditional and historic uses of forests.Item Climate Change Impacts on the Water Resources of American Indians and Alaska Natives in the U.S.(2013) Cozzetto, K; Chief, K; Kittmer, K; Brubaker, M; Gough, R; Souza, K; Ettawageshik, F; Wotkyns, S; Opitz-Stapleton, S; Duren, S; Chavan, PThis informative paper links the perspectives and concerns of American Indians with predictions of climate change impacts on natural resources and Native communities. The report cites current and predicted impacts on the Fond du Lac Reservation in northeastern Minnesota, referencing several local sources and tribal authorities. Extracts of key points are reproduced below. "This paper provides an overview of climate change impacts on tribal water resources and the subsequent cascading effects on the livelihoods and cultures of American Indians and Alaska Natives living on tribal lands in the U.S. A hazards and vulnerability framework for understanding these impacts is first presented followed by context on the framework components, including climate, hydrologic, and ecosystem changes (i.e. hazards) and tribe-specific vulnerability factors (socioeconomic, political, infrastructural, environmental, spiritual and cultural), which when combined with hazards lead to impacts. Next regional summaries of impacts around the U.S. are discussed. Although each tribal community experiences unique sets of impacts because of their individual history, culture, and geographic setting, many of the observed impacts are common among different groups and can be categorized as impacts on—1) water supply and management (including water sources and infrastructure), 2) aquatic species important for culture and subsistence, 3) ranching and agriculture particularly from climate extremes (e.g., droughts, floods), 4) tribal sovereignty and rights associated with water resources, fishing, hunting, and gathering, and 5) soil quality (e.g., from coastal and riverine erosion prompting tribal relocation or from drought-related land degradation). The paper finishes by highlighting potentially relevant research questions based on the five impact categories. The Midwest (MW) is the location of the five lakes comprising the Great Lakes that together form Earth’s largest surface freshwater system. Thirty federally recognized tribes live in MW states and depend on this resource. Ceremonies honoring the waters as the life-blood of Mother Earth are held throughout the region. MW Tribes depend on the waters for subsistence and commercial fishing and for water-based plant materials for traditional crafts and artwork. Additionally, most MW tribes now operate gaming facilities and other tourism enterprises that rely heavily upon water for aesthetic and recreational uses. Many MW tribes consider climate change adaptation to be one of the most important long-range environmental issues for tribal nations. Michigan tribes, for instance, have worked with the state to negotiate and sign the May 12, 2004 Intergovernmental Accord between the Federally Recognized Indian Tribes in Michigan and the Governor of the State of Michigan Concerning Protection of Shared Water Resources and the June 11, 2009 Intergovernmental Accord between the Tribal Leaders of the Federally Recognized Indian Tribes in Michigan and the Governor of Michigan to Address the Crucial Issue of Climate Change. Biannual meetings are held between the state and tribes to discuss shared responsibilities and potential cooperative efforts. Impacts on MW tribes are diverse. Key impacts are related to flora and fauna important for diet, acknowledging clan responsibilities, social and mental health, and the exercise of treaty rights. Traditional healers in the region, for instance, have noted that lack of moisture and unreliable springtime temperatures have caused significant wild and cultivated crop losses. Wild rice (manoomin) is a sacred food of great importance to the Ojibwe of the Great Lakes area and may be detrimentally affected by climate change. In the Ojibwe Migration Story, The Great Mystery foretold the coming of the light-skinned race and instructed the Ojibwe to journey westward until they found ‘the food that grows on water.’ Since the 1900s, the loss of wild rice acreage to mining, dams, and other activities has been substantial. Warmer temperatures could cause further losses by reducing seed dormancy, favoring invasive, out-competing plants, and being conducive to brown spot disease. Water levels also influence rice survival. Extremely low Lake Superior levels in 2007 forced the Bad River Band of the Lake Superior Tribe of Chippewa (WI) to cancel its annual wild rice harvest due to dramatic crop reductions. A 2012 flood led to near total wild rice crop failure on the Fond du Lac Reservation. Tribes in the Great Lakes area rely on treaty fishing, hunting, and gathering rights. The exercise of these rights requires considerable attention to environmental issues, including climate changes that affect species and habitats. These rights have been the subject of several court cases, which have resulted in decisions upholding tribal rights. Native American tribes need relevant and culturally appropriate monitoring, assessment, and research on their waters and lands and to develop or be included in the development of contingency, management, and mitigation plans. Tribes also greatly need actual implementation of projects. Although climate change preparedness can take place as a stand-alone effort, climate change considerations can be included as part of planning and implementation that is already occurring. Tribes or intertribal organizations must decide what constitutes relevant work. We propose research questions that might be significant for tribes based on the five impact categories. These include examples of science, policy, and social science questions related both to further identifying impacts and contributing climate and vulnerability factors and to identifying adaptation strategies."Item Evaluating Minnesota's Historic Dams: A Framework for Management(Archaeo-Physics, LLC, 2013) Arnott, Sigrid; Birk, Douglas A; Maki, DavidThis study assessed 31 historic mill dam sites in Minnesota. Of these, one was located in the Sea Grant coastal area. The study discusses broader impacts of dams on tribal, cultural and environmental resources generally, which are relevant to the SG study area.Item Fond du Lac Resource Management: 2008 Integrated Resource Management Plan(2008) Fond du Lac Band of Lake Superior ChippewaThis very comprehensive document was reviewed and is felt to have significant content and analysis relevant to Minnesota’s coastal area and water resources. It also contains biophysical and watershed-related content directly relevant to Native communities in Minnesota’s coastal communities. Key content is reproduced below: Executive summary: “This Integrated Resource Management Plan contains information about the Band’s past and current management activities and identifies resources that need additional management. The Integrated Resource Management Plan contains alternatives to resource management, as required by the National Environmental Policy Act, which are based on the management objectives. Management activities range from no action to full implementation, and the alternatives presented reflect that range. The objectives that can be completed under each alternative are displayed in a table located at the end of discussion on alternatives. Public input was solicited on the draft document, which included a variety of management alternatives. Comments obtained from the community and tribal government were incorporated into the final document, and the hearing process provided a basis for the formulation and selection of the preferred alternative. The preferred alternative is officially approved by Resolution # 1183/08. Each resource is described in a narrative that was developed in the following format: o Description of the affected environment o Background for that resource o Issues, concerns, and opportunities for that resource o Goals and objectives for that program, with different management alternatives The final chapter is a summary of the alternatives. The preferred alternative is identified for each resource.” Approximately 15 pages of this report are dedicated specifically to water-based resources, including chapters on wild rice, wetlands and water, and fisheries. Some sections are reproduced below. Wild Rice There are five primary wild rice lakes on the Fond du Lac Reservation. The total area on which wild rice is currently present on these lakes is 843 acres. The wild rice areas on the individual lakes are: Perch Lake, 411 acres; Mud Lake, 151 acres; Rice Portage Lake, 131 acres; Jaskari Lake, 79 acres; and Deadfish Lake, 71 acres. These lakes are all within the Stoney Brook Watershed, which is tributary to the St. Louis River. Wild rice is also present in Side Lake, Cedar Lake, Wild Rice Lake, Simian Lake, and Hardwood Lake. Side Lake and Hardwood Lake are within the Stoney Brook Watershed. Cedar Lake and Simian Lake are within the Simian Creek Watershed. Wild Rice Lake is the headwaters of the Moosehorn River, a tributary of the Kettle River. The density of mature wild rice varies from season to season, as the ecology of wild rice growth is related to cycles of plant decomposition, the number of growing days, and available nutrients. In addition, wild rice is easily lost as a result of natural events, such as high winds, flooding, and hail. The majority of the wild rice resource on the Fond du Lac Reservation is in the Stoney Brook Watershed. Beginning in 1916, the Stoney Brook Watershed was adversely affected by the creation of a network of judicial ditches. These judicial ditches drastically altered the hydrology of the watershed, resulting in the loss of over 500 acres of wild rice habitat. The lower water levels that resulted from the judicial ditching allowed competing vegetation to encroach on areas that at one time supported wild rice. Besides the Stoney Brook Watershed, wild rice resources in other areas of the Fond du Lac Reservation are in decline as well. The reason for this decline is primarily due to higher water levels, caused by road building and beaver activity. The Fond du Lac Natural Resources Program is responsible for the wild rice management and restoration activities on the Fond du Lac Reservation. The primary method of wild rice lake management consists of utilizing water control structures (dams) to stabilize water levels, ditch maintenance, and beaver dam management. The restoration of the major wild rice lakes on Fond du Lac is dependent on restoring the lakes to their historical elevation and a more natural annual hydrological cycle. The implementation of the Rice Portage Wild Rice and Wetland Restoration Project resulted in the construction of four water control structures. These four structures are located at the outlet of Perch Lake, the outlet of Rice Portage Lake, an impoundment that is upstream of Deadfish Lake (commonly known as “Upper Deadfish”), and at the outlet of Deadfish Lake. These structures are used to restore the lake elevations and improve hydrologic function. Issues: The ineffectiveness of current mechanical methods for the restoration project on Rice Portage Lake. Mud Lake continues to produce a thin crop of wild rice, despite its potential for higher yields. Concerns: Invasive species–both invasive and exotic plant species–are of great concern due to their persistence once introduced. While there are no know exotic species in our wild rice lakes, the risk is high given the uses of these lakes by waterfowl hunters and wild rice harvesters. Climate change–weather pattern changes, annual precipitation, and temperature changes–all may impact the viability of our wild rice lakes. Opportunities The Stoney Brook Watershed Study will provide a model that will allow for more effective water level management, and identify opportunities for restoration of the original river system, and abandonment of unnecessary ditch segments. The current trend of land purchasing, land use planning, and increased resource management capabilities affords long term protection for portions of the wild rice lake watershed that were unavailable in the past. Increased Resource Management Division staff and capabilities may allow for opportunities to partner with other agencies and organizations to restore, protect, and enhance wild rice growth throughout the Ceded Territories. Goals & Objectives At a minimum, maintain the current program and management. Increase vegetation treatment acreage per annum. Surface water resources The Fond du Lac Reservation includes abundant freshwater resources, with over 3,000 acres of lakes (828 acres of wild rice waters), nearly 44,000 acres of wetlands, and 96 miles of rivers and streams. The St. Louis River, the largest U.S. tributary to Lake Superior, borders the Reservation to the north and east, and approximately 95% of the waters of the Reservation lie within its watershed. All of the waters within the Reservation are believed to be relatively pristine. There are no known or permitted industrial or municipal discharges to the waters, except to the St. Louis River. Historical hydrological modifications to many of the Reservation’s wild rice lakes occurred with the development of the judicial ditch drainage system early in the twentieth century. Currently, a restoration project is underway to gradually restore Rice Portage Lake, one of the most productive rice lakes, to its historical water levels, and to minimize water level fluctuations on Deadfish Lake, thereby enhancing its stands of rice. Shoreline development and the accompanying potential for increased nutrient inputs (septic discharge and lawn chemicals) and erosion are factors that could affect the water quality of several Reservation lakes. By 1998, the Fond du Lac Environmental Program developed and the Reservation Business Committee adopted a set of Water Quality Standards for the surface water resources of the Reservation, setting contaminant criteria and designating uses for 24 lakes and eight streams within the boundaries, and identifying Outstanding Reservation Resource Waters. More recently, the Band has been granted “Treatment as a State” authority by the U.S. Environmental Protection Agency, under the federal Clean Water Act, enabling it to enact and enforce such standards. As a critical tool for implementing these standards, the Environmental Program designed a comprehensive Water Quality Monitoring Plan. Initially a rigorous three-year monitoring project measuring the physical, chemical and biological quality of 24 lakes and eight streams located within the exterior boundaries of the Reservation, it has since been modified to reflect an ongoing status and trends program. This comprehensive database on Fond du Lac surface waters will also permit the Office of Water Protection to develop numerical biocriteria to replace the narrative biocriteria currently in the tribal Water Quality Standards. The data is also utilized to assess and report on the condition of these water bodies and their attainment of designated and aquatic life uses. Protecting human health requires monitoring for indicators that measure the safety of eating fish or other aquatic wildlife, or of swimming and boating. Conserving ecosystems requires indicators of diverse, healthy aquatic plant and animal communities, and indicators are also needed to assure that water quality and sediment conditions can maintain those biological communities. The Water Quality Monitoring Plan was designed to assess indicators for both human health and aquatic life. Atmospheric deposition of mercury is of particular concern in this boreal forest and wetland ecoregion, as biochemical processes enhance mercury availability to the aquatic food chain, bioaccumulating to levels that are hazardous to top predators and humans. Consequently, fish caught in Reservation waters can be dangerously high in tissue mercury content. Criteria for the Water Quality Standards were calculated under an assumed fish consumption rate that is much higher than the state of Minnesota or the Great Lakes region assumes for the general population, as some Band members rely upon fish at a subsistence level in their diet. The Environmental Program has completed several projects that assessed contaminant levels (mercury, PCBs and lead) and characterized sediments of twelve Reservation lakes and the St. Louis River. In 2001, Fond du Lac partnered with the Minnesota Department of Health to collect and analyze fish tissue from lakes and the St. Louis River (preferred fishing waters), using the data to develop specific fish consumption advisories. Groundwater In 2004, Fond du Lac completed its first Nonpoint Source Assessment Report and applied for Treatment as a State for non-point source authority. The Office of Water Protection received its first base program funding in 2005 and is using that support to implement several projects under the following categories: hydro modification, timber harvesting, roads and urban development. The Resource Management Division is also engaged in a major hydrologic study of the Stoney Brook watershed in partnership with Natural Resources Conservation Service and the U.S. Geological Survey. Ultimately, a Stoney Brook Watershed Management Plan will be developed to account for multiple resource management objectives, including wild rice production and stream and wetland restoration. The Office of Water Protection also has identified aquatic invasive species as a major concern for protecting the Reservation’s water resources. The nonpoint source program provides for broad education and outreach to the Reservation community and affected stakeholders, in order to minimize nonpoint source impacts to Fond du Lac water resources. The primary objectives of the Environmental Program are to ensure the protection of valuable ground water resources through the continued closures of abandoned wells, the delineation of protection zones for wells contributing to community water systems, and the development of a wellhead protection plan for the Reservation. The Fond du Lac Reservation boundary encompasses 101,153 acres, of which 43,264 (43%) are wetlands. These wetlands consist of forested (67% – black spruce, tamarack, or black ash dominant; includes bogs), scrub shrub (29% – alder or willow dominant), emergent (3% – sedge, reed canary grass, or cattail dominant; includes wild rice lakes), and open water (< 1% – coontail dominant). Many wetlands on the Reservation have been degraded due to human activities, particularly by ditching, road construction, agricultural and silvicultural runoff, and commercial and residential development. The Environmental Program has a Wetlands Conservation and Protection program that has been active since October of 1998. A Wetlands Protection and Conservation Plan was adopted by the Reservation Business Committee in October 2000. The plan was expanded, updated and adopted by the Reservation Business Committee in February 2006 to become the Fond du Lac Joint Comprehensive Wetlands Protection and Management Plan. The adoption of this plan led to the development and adoption by the Reservation Business Committee of the Fond du Lac Wetlands Protection and Management Ordinance in June 2006. Erosion and sedimentation resulting from storm water can cause significant impact to surface waters. On the Reservation, construction activities have the potential to be a major contributor to these impacts. Since March 2003, the Office of Water Protection has been providing erosion and sedimentation control best management practices oversight of construction projects on the Reservation. This is the result of the Environmental Protection Agency’s National Pollutant Discharge Elimination System Phase II Construction Storm Water regulations as part of Section 402 of the Clean Water Act. In addition to this voluntary oversight, the Office of Water Protection has also entered into a Storm Water Direct Implementation Tribal Cooperative Agreement to conduct inspections of construction sites impacting one acre or more. Two tribal inspectors have been trained and credentialed by Environmental Protection Agency to conduct inspections on the Reservation. More than 13 projects are scheduled for inspection during the construction seasons of 2007 and 2008. In addition, the Office of Water Protection has been developing the required Storm Water Pollution Prevention Plans for nearly all projects conducted by the Reservation, as well as occasional projects conducted by individual Band members.” A long list of concerns and threats to water resources is included in the report. These related to taconite and sulfide mining operations, mercury deposition, nonpoint source pollution and other causes. “Fisheries The majority of the lakes on the Fond du Lac Reservation are small, shallow bodies of water, more suitable for growing wild rice than for the management of any significant fisheries. Many of these lakes do have fish, however, with populations consisting primarily of northern pike), largemouth bass, panfish, yellow perch), and bullhead. Due to relatively shallow water, high abundance of aquatic macrophytes, and substrates composed predominantly of decaying organic matter, many of these Reservation lakes are incapable of supporting any naturally reproducing populations of walleye (Sander vitreus). These lakes are, however, conducive to the production of northern pike, panfish, largemouth bass, and bullhead but are also subject to frequent winterkill. Most of the lakes on the Reservation do have some type of public access, though most are strictly carry-in accesses. The fishery of the St. Louis River is by far the most important one for residents of the Reservation. At least four game fish species can be found in appreciable numbers; northern pike, walleye, smallmouth bass, and channel catfish. The channel catfish fishery remains the highest priority of Fond du Lac Band members who regularly use the St. Louis River’s fishery resources. Much can be done to improve the trout populations on the Reservation. Stream improvements and the removal of beaver and their lodges and dams may improve habitat for resident trout populations. Stocking may need to be a part of future management activity, but shouldn’t be random and haphazard as past stocking activities appear to have been. In addition, regular assessments need to be performed following any stocking efforts. The fisheries in the 1854 and 1837 Ceded Territories are numerous and diverse, from small trout streams in the Superior National Forest, to lakes such as Mille Lacs that are capable of sustaining large walleye populations, to the salmon and trout of Lake Superior. Walleye and northern pike appear to be the most important species to Band members, and are relatively abundant throughout both of the Ceded Territories. A high priority for Band members is a concentrated subsistence harvest at Mille Lacs Lake, where a regular spring harvest season occurs.”Item Grand Portage Band of Lake Superior Chippewa: Creative Solutions for a Changing Environment(2012) Grand Portage Bank of Lake Superior ChippewaThis report summarizes several environmental initiatives and climate change adaptation strategies including wind, community gardens, moose collaring, introduction of bison, etc. Some points are relevant to water resources and are extracted below: Summary: "The Grand Portage Band of Lake Superior Chippewa Indians resides in the northeast corner of Minnesota along Lake Superior. The dynamic environs of the region host a wide array of birds, fish, mammals, amphibians and reptiles. Unprecedented warming of Lake Superior in recent years suggests that climate change is taking effect around Grand Portage and is threatening local wildlife species. One of the Grand Portage Band’s major concerns is that climate change may lead to the loss of culturally significant subsistence species including moose and brook trout in the Lake Superior region. The tribe hopes that by investing in mitigation projects it can accomplish environmental and natural resources goals, achieve energy and food independence, contribute to carbon solutions, and reduce expenses to community members. In addition to existing mitigation projects and initiatives, the tribe is currently developing a comprehensive climate change adaptation and mitigation plan for tribal lands and resources. The plan addresses water quality, air quality, sustainable forestry, adaptation to shifts in fisheries and wildlife, sustainable food ventures, alternative energy development, and energy conservation programs. "Fisheries: To adapt to climate change, the tribe has shifted management of a 61-acre inland lake from a cold water (brook trout) fishery to a cool water fishery (yellow perch and walleye) through fish propagation and stocking. This occurred because warming temperatures in the lake reached critical lethal levels for brook trout causing complete collapse of the population. The Grand Portage Natural Resources Department adapted to the fishery collapse by choosing to develop a cool water fishery using yellow perch and walleye. The Grand Portage Native Fish Hatchery is now using re-circulating water systems to achieve the water temperatures needed for rearing cool water native fish species like walleye and lake sturgeon, in addition to rearing cold water brook trout for Lake Superior. This allows for better utilization and flexibility of the hatchery and stocking operations, while also providing higher growth rates for fish. The Grand Portage Band is also revising legacy contaminant (mercury) concentrations in fish tissue for consumption advisories for the Grand Portage Community. "Invasive Species Management: Aquatic invasive species (AIS) assessments for plants, fish, and invertebrates have been planned for water bodies in Grand Portage. The additional AIS surveys have stemmed from the climate change adaptation plan which noted that warmer water temperatures may increase or aid dispersal of AIS."Item Grand Portage National Monument/Minnesota: Final General Management Plan/Environmental Impact Statement(2003) National Park Service, Department of the InteriorThis is a planning document presenting four development alternatives to enhancing visitor experience at the Grand Portage National Monument. The alternatives range from doing nothing, to different degrees of reconstructed historic buildings and major interpretive programs, to a hybrid model. A brief history and background of the site is provided. The report summarizes potential environmental impacts to land and water resources for each alternative option.Item Ground Water/Surface Water Interaction in Nearshore Areas of Three Lakes on the Grand Portage Reservation, Northeastern Minnesota, 2003–04(2006) Jones, Perry MThis is a geologic and hydrological study of three lakes on the Grand Portage Reservation and is largely technical in scope. These three lakes have higher conductivity levels than other lakes in the Reservation. Public water comes from surficial water supplies, while ground water is used for private water sources such as wells, mainly within two miles from Lake Superior. Ground water is too saline to use for public water use. Results of the study show that water movement and quality in this geologically-fractured area are complex, and that lake sediment temperature monitoring may be the most reliable method for natural resources managers. Key findings from the report are extracted and reproduced below. “The availability of good quality water from lakes and wetlands on the Grand Portage Reservation in northeastern Minnesota is an important concern of the Grand Portage Band of Chippewa Indians. Development and changing land-use practices may affect the quality and quantity of water resources on the reservation. To effectively protect the water quality and quantity of the lakes and wetlands, an understand¬ing of exchanges between ground water and surface water on local and regional scales is needed. Numerous hydrologic studies have been done on the reservation, but none of these studies has focused on determining ground-water/surface-water interactions of lakes and wetlands. The U.S. Geological Survey (USGS), in cooperation with the Grand Portage Band of Chippewa Indians, conducted a study to assess ground-water/surface-water interactions in nearshore areas of three lakes, North, Teal, and Taylor Lakes on the Grand Portage Reservation in 2003 and 2004. These three lakes were selected on the basis of the rela¬tively high specific conductance values of water from these lakes compared to other lakes on the reservation. The high specific conductance values of the lake water may indicate that ground-water inflow is an important component of the water balance of the lakes. The objective of the study was to identify areas of ground-water inflow to the three lakes and surface-water outseepage to local aquifers through the assess¬ment of existing aerial photographs and water-quality data. Results from this study indicate that ground-water and surface-water interactions at the study lakes are complex, and the ability of the applied techniques to identify ground-water inflow and surface-water outseepage locations varied among the lakes. Measurement of lake-sediment temperatures proved to be a reliable and relatively inexpensive reconnaissance technique that lake managers may apply in complex settings to identify general areas of ground-water inflow and surface-water outseepage.”Item Hydrology and Water Quality of the Grand Portage Reservation, Northeastern Minnesota, 1991-2000(2002) Winterstein, Thomas AThis is a technical geo-hydrologic study of water resources on the Grand Portage Reservation. There are few references to human uses of water resources, or to anthropogenic factors. The abstract with key points are extracted and reproduced below. Abstract: “The Grand Portage Reservation is located in northeastern Cook County, Minnesota at the boundary between Minnesota, USA, and Ontario, Canada. Between 1991 and 2000 the U.S. Geological Survey conducted a series of studies, with the cooperation with Grand Portage Band of Chippewa, to describe the water resources of the Grand Portage Reservation. Ground water moves primarily through fractures in the bedrock, probably in three ground-water systems: local, regional, and deep. Lake Superior is thought to be the discharge point for brines in the deep ground-water flow system. The watersheds in the Grand Portage Reservation are small and steep; consequently streams in the Grand Portage Reservation tend to be flashy. Lake stages rise and fall with rainfall. The pH of water in the Reservation is generally alkaline (pH greater than 7.0). The alkalinity of water in the Reservation is low. Concentrations of major ions are much greater in ground water than in spring water and surface water. The ionic composition of water in the Reservation differs depending upon the source of the water. Water from 11 of the 20 wells sampled are a calcium-sodium-chloride type. Water from wells GW-2, GW-7, and GW-11 had much greater specific conductance concentrations of major ions compared to the other wells. Some spring water (SP-1, SP-3, SP-4, SP-6, and SP-8) is calcium-bicarbonate type like surface water, whereas other spring water (SP-5 and SP-7) is similar to the calcium-sodium-chloride type occurring in samples from about one-half the wells. The major chemical constituents in surface water are bicarbonate, calcium, and magnesium. Measured tritium and sulfur hexafluoride (SF6) concentrations in water samples from springs and wells were used to determine the recharge age of the sampled water. The recharge ages of two of the wells sampled for tritium are before 1953. The recharge ages of the remaining 10 samples for tritium are probably after 1970. The recharge ages of seven SF6 samples were between 1973 and 1998.”Item The Impacts of Climate Change on Tribal Traditional Foods(2013) Lynn, Kathy; Daigle, John; Hoffman, Jennie; Lake, Frank; Michelle, Natalie; Ranco, Darren; Viles, Carson; Voggesser, Garrit; Williams, PaulThe tribal communities noted in this very interesting paper are from the Pacific Northwest. This paper is included in the study even though it is not specifically focused on Minnesota’s coastal resources, but is relevant in discussing modes and strategies that tribal leaders may pursue to address the impacts of climate change. Mention is made of wild rice and Ojibwe communities in Minnesota. Key points are extracted and reproduced below. Abstract: “American Indian and Alaska Native tribes are uniquely affected by climate change. Indigenous peoples have depended on a wide variety of native fungi, plant and animal species for food, medicine, ceremonies, community and economic health for countless generations. Climate change stands to impact the species and ecosystems that constitute tribal traditional foods that are vital to tribal culture, economy and traditional ways of life. This paper examines the impacts of climate change on tribal traditional foods by providing cultural context for the importance of traditional foods to tribal culture, recognizing that tribal access to traditional food resources is strongly influenced by the legal and regulatory relationship with the federal government, and examining the multi-faceted relationship that tribes have with places, ecological processes and species. Tribal participation in local, regional and national climate change adaption strategies, with a focus on food-based resources, can inform and strengthen the ability of both tribes and other governmental resource managers to address and adapt to climate change impacts. "American Indian and Alaska Native tribes face unique and disproportionate challenges from climate change that are not yet widely understood in academic or policy arenas. This paper explores one of these challenges in particular—the impact of climate change on traditional foods and the reality that 1) tribal access to resources is strongly influenced by the legal and regulatory relationship that tribes have with the federal government, and 2) tribes have a unique and multi-faceted relationship with places, ecological processes, and species. These frameworks shape tribal responses to climate change. “Water is held sacred by many indigenous peoples (Cozzetto et al.), and considered by some to be a traditional food... Climate change impacts on water temperature and availability will also have significant impacts on tribal traditional foods. Already, the lack of water is among one of the leading causes for the decline in the ability to grow corn and other crops... In the Great Lakes region, warming winters and changes in water level are crippling the ability of wild rice to grow and thrive in its traditional range. Wild rice is a pillar of cultural health for the Anishnaabeg people in Minnesota, and any decline in wild rice negatively affects their well-being. In response to threats facing wild rice, the Fond du Lac Band of Lake Superior Tribe has begun trying to address potential hydrological changes. In the early 1900s, settlers built ditches to drain the land for agricultural purposes, resulting in negative impacts to the watershed. The Fond du Lac are now building dams at ditch flow points to keep water levels stable and prevent extreme changes in water level that would negatively affect wild rice harvests. “Climate and ecosystems change over time. Paleoclimate, archaeology, and ethno-ecological research provide a foundation for understanding how climate, environmental productivity and tribal food utilization strategies evolved. Historical evidence demonstrates the rate of climatic change experienced within past environments and the accompanying tribal food security systems that occurred in response to these changes. Although the rate of change experienced was not as rapid as contemporary conditions, tribes historically experienced significant climate changes that affected ecosystems and food-based resources, requiring tribal cultures to strategically adapt and respond to survive. “Tribes may enter government-to-government agreements to increase their role in local resource management, to access additional areas to gather traditional foods, or lease and buy lands that ensure sustained access to traditional foods. Tribes may also exchange information and identify different technologies to access, acquire, process, and store foods. Additionally, tribes can develop formal and informal agreements with other tribes to grant or request access to traditional foods that may now only be found on one of their reservations. Tribes may have to consider diversifying their food-based resources and possibly adopting and utilizing new animals, plants, or fungi. “Addressing climate change through the knowledge, experiences, and policy contexts of indigenous peoples provides a powerful counter-point to the lack of effective global climate responses. As indigenous peoples may experience some of the harshest impacts of climate change, they can also lead the way in creative solutions for adaptation and ethical policy strategies. “Climate change impacts on tribal traditional foods should be viewed in the context of historical and cultural tribal relationships with places, wildlife, and plants, as well as in the landscape of the treaties, federal policies, and federal trust responsibilities and regulations in which they exist. Moreover, tribes view climate change adaptation in light of their reciprocal relations to care for and respect natural resources. As a result of these relationships of reciprocity and responsibility between tribes and nature and existing policies, Indian tribes’ vulnerability to climate change, and the adaptation strategies they adopt are multi-faceted and deeply rooted in a complex historical context. As sovereign governments, tribes have the authority to identify and implement adaptation strategies, and attempt to influence and strengthen the climate change protocols of other governments. “The various adaptive practices tribal practitioners and communities employ may enable managers to institute changes in policies, regional strategies, and resource regulation/conservation that enable ecosystems to respond more favorably to climate change. Tribal participation in local, regional and national climate change adaption frameworks and strategies, with a focus on food-based resources, can assist with prioritizing research and management directions. “Under extreme and rapid conditions of severe change at different ecological scales, western scientists and managers may need to partner with tribal scientists, managers, harvesters, and communities to explore innovative approaches to addressing climate change impacts. Tribal participation in climate change research, policy development and planning can help identify more solutions that fully consider tribal cultural values. Climate change will not obey the jurisdictional boundaries between tribal, private, state, and federal lands. As such, meaningful government-to-government relationships and collaboration will be vital to address the climate change impacts to the traditional foods, and to the wildlife, plants, and habitats valued by tribes and other Americans."Item Lake Superior Climate Change Impacts and Adaptation(2014) Huff, A; Thomas, AThis is a recent and comprehensive report that summarizes expected and cross-cutting impacts of climate change on all biophysical aspects of Lake Superior (fisheries, bird migration, pollutants, flooding, etc.). It is based on a review of other studies, and proposes a framework for monitoring changes in the Lake Superior basin.Item Late Prehistoric Cultural Affiliation Study, Grand Portage National Monument, Minnesota(1999) Clark, CavenThis is a desk study of indigenous history of the Grand Portage tribal lands over the past 10,000 years. Notes that fisheries were a major resource until the Terminal Woodland sub stage (approx. 700 AD) when subsistence practices became highly specialized and centered on wild rice and pottery making. Discussion centers primarily on previous literature documenting pottery types and burial practices, although there is some mention of use of water and water routes (e.g. cultural exchange through pottery traded along water routes). "Other factors influencing the formation of the archeological record include issues of settlement and seasonality that undoubtedly conditioned the best time of year to visit a site, and the number of people that could reasonably camp there. In a "good place to camp," such as a logistically important river mouth or sheltered bay, at a place of resource abundance, or at a place of spiritual significance, the likelihood of many visits over a long period of time is high...In this regard, Grand Portage, which lacks any significant evidence of a terminal Woodland occupation, was likely not the primary point of departure for groups traveling to and from Isle Royale, nor the destination of groups coming from the east or west. Although Grand Portage is one of the best sheltered bays south of the Canadian border, the mouth of the Pigeon River/Pigeon Bay, Pigeon Point and Waswagoning Bay probably were the focus of occupation prior to the advent of the fur trade as the only nearby locations for spawning whitefish and lake sturgeon. Unfortunately we have no archeological evidence to support this. Mobility and food security depended on large part to water resources. The basic pattern of subsistence followed the seasonal round of resource availability. Spring was a time of coming together for the spawning runs of suckers and sturgeon at river mouths on Lake Superior and the larger inland lakes. It was also a time for harvesting the incoming flight of passenger pigeons arriving from the south. Summer was a period of resource abundance with many options, including beaver, moose, caribou and deer hunting. Group size could vary widely and mobility was at its peak as canoe travel made all the islands, rivers, and lakes the highway of the people. Another major fish run occurred in fall as trout and whitefish sought out their spawning groups and large numbers of people gathered at the river mouths on Lake Superior for the last time of the year for this harvest. Fall brought the harvest of wild rice for those with access to this important crop. The western portion of the Grand Portage Band territory touches upon the "rice district" and provided a storable resource that would, along with preserved fish, meat and berries, provide a savings account for winter survival when the availability of food was least secure. As game fattened and coats thickened in anticipation of winter, attention returned to hunting, and the hunters and their families dispersed to their interior camps. Winter was a period of relative isolation and limited mobility, occasionally ending in a lean period..." Provides an interesting narrative of the fur trade and interactions between French traders and Native communities, noting that Grand Portage was the deport where the great cargo canoes and bateau of the Great Lakes exchanged their westbound loads of trade goods for eastbound bales of castor gras, arriving in the lighter and smaller canoes of the inland waterways of the west. A substantial post was built on the shores of Grand Portage Bay. In the 1790s the depot consisted of 16 buildings surrounded by a log stockade. The waterfront included wharves and a dock capable of accommodating the 75 ton schooner Otter. In 1834 the American Fur Company hired about twenty Grand Portage resident to fish between Grand Portage and Grand Marais, but the fishery closed in 1842 due to lack of markets. In 1836 the American Fur Company expanded its operations to include commercial fishing. Grand Portage Ojibwe were sought after for their knowledge and expertise in the local fishery. Ojibwe men and women were employed by the company at Grand Portage and on Isle Royale. The men were engaged in fishing and the women in processing the catch. Noted is an important spirit associated with water by The Grand Portage and other regional Ojibwe, 'variously called the Underwater Manitou, Underwater Panther, Long-Tailed Underwater Panther, Mishebeshu, or Michi-Pichoux, the Great Lynx. This spirit reflected the abundance and availability of land and sea animals. With its numerous underwater allies it controlled all game, withholding animals and fish from its enemies. The early Lake Superior Ojibwe offered it sacrifices to obtain good fishing, and in the Creation Myth Nanbezho fought it to secure the right to hunt for future Indians. The Underwater Manitou possessed great and dangerous powers. It could cause rapids and stormy waters, and often sank canoes and drowned Indians, especially children. The Ojibwe associated it with the sudden squall waters of the Great Lakes which prevented fishing...' "Item Long Range Interpretive Plan: Grand Portage National Monument, 2005(2005) National Park Service, Department of the InteriorThis report summarizes the Park mission and goals and primary interpretive themes. It provides detail on visitor experiences, visitor experience goals, and existing conditions assessment, information about the Park website, and on-site visitor services and information. It lists interpretive programs, informal programs, facilities and wayside exhibits. A number of private and public partnerships are listed, as well as community events, curatorial and library services, and disability information. There are numerous recommendations to make the Park more amenable to visitors as a tourist destination. The report does not generally focus on water resources except for the introductory and background information at the beginning of the report. Key passages are extracted and reproduced below. Summary: "The Grand Portage or Gitchi Onigaming (Great Carrying Place) is an 8.4-mile trail on the northwestern periphery of the Great Lakes-St. Lawrence River drainage in the middle of North America. It connected the lakeshore with Pigeon River, an embarkation point for Native peoples, explorers, and voyageurs heading west and a gathering point for furs going east. The portage was the most direct route from the Great Lakes into the Canadian interior. Several falls and cataracts blocked human travelers’ use of the Pigeon River so that a portage was needed, hence the name “Grand Portage.” French and later British traders entered the Great Lakes-Northwest trade by traveling west from Montreal. Having learned to use birch bark canoes, they moved into the mid-continent along an established inland network of Indian canoe routes. Building on entrenched Indian exchange practices and catering to Indian preferences, traders bartered imported European goods and commodities for Indian furs, provisions, and services. This ultimately led to an intercultural exchange of languages, ideas, technologies, diseases, and genes. It also promoted commercial, political, and marital alliances. PLAN “When the North West Company and the XY Company moved their operations north to Kaministikwia (later Fort William, Ontario) at the beginning of the 19th century, Grand Portage became remote to the main channels of trade and communication and less important to the outside world. The boundary between Canada and the United States between Lake Superior and Lake of the Woods was not firmly established until the Webster-Ashburton Treaty of 1842. Under the terms of that treaty, the Grand Portage clearly became United States property; however, the use of the trail was to remain free and open to citizens of both the United States and Great Britain. The historic portage represents the essential resources of Grand Portage National Monument, which is bordered on the north and south by the Grand Portage Indian Reservation, on the east by Lake Superior, and on the west by the Pigeon River and Canada. It lies within both the Grand Portage Indian Reservation and the unincorporated community of Grand Portage. The community is the homeplace and tribal government center of the Grand Portage Band of Minnesota Chippewa (Ojibwe)."Item Mercury in Streams at Grand Portage National Monument: Evidence of Ecosystem Sensitivity and Ecological Risk(2012) Wiener, James GThis is a 4-page pdf, which apparently has not been published although the paper reviewers are named. The origin of the paper is unclear, and it should be regarded as “gray” literature. Key points are extracted and reproduced below. “In 2008, the University of Wisconsin-La Crosse began quantifying mercury in aquatic food webs in six national park units in the western Great Lakes region, including Grand Portage National Monument (GRPO). Principal objectives are (1) to identify parks and water bodies where concentrations of methylmercury are high enough to adversely affect fish and wildlife, and (2) to assess spatiotemporal patterns in methylmercury contamination of aquatic food webs. Methylmercury is a highly toxic compound that readily bioaccumulates in exposed organisms and can biomagnify to harmful concentrations in organisms in upper trophic levels of aquatic food webs. Study sites at GRPO include Snow Creek (beaver pond in upper reaches and lower reaches), Poplar Creek (south branch), and Grand Portage Creek (lower reach). Analytical results reveal elevated concentrations of both total mercury and methylmercury in these stream systems... Concentrations of total mercury and methylmercury in streamwater from GRPO are substantially higher than concentrations typically found in lakes and streams in the western Great Lakes region. “Bioaccumulation and ecological risk. In 2010, prey fish were sampled from three streams in the park and analyzed whole for total mercury, which accumulates in fish as methylmercury. Mean concentrations were highest, exceeding 100 ng/g wet weight (nanograms per gram, equivalent to parts per billion) in blacknose dace (Rhinichthys atratulus) and longnose dace (Rhinichthys cataractae) from Poplar Creek. These mean concentrations in dace substantially exceed the estimated dietary threshold (40 ng/g wet weight in prey fish) associated with reproductive effects of mercury on piscivorous fish that feed on prey fish (Depew et al. in press). Mean concentrations of mercury in most of the other prey fishes analyzed also exceeded the 40 ng/g threshold for reproductive effects on piscivorous fish; these included creek chub (43 ng/g) and central mudminnow (56 ng/g) from Poplar Creek, fathead minnow (58 ng/g) and central mudminnow (55 ng/g) from Snow Creek, and longnose dace from Grand Portage Creek (67 ng/g). The maximal concentrations in individual fish were 242 ng/g in blacknose dace and 211 ng/g in longnose dace. These maximal values exceed dietary thresholds associated with adverse effects of methylmercury on the health and reproduction of fish-eating birds. “The high concentrations of methylmercury in larval dragonflies may indicate significant risks for insectivorous songbirds that forage and nest near streams at GRPO. Studies in eastern North America have documented unexpectedly high concentrations of mercury (present as methylmercury) in certain terrestrial invertivores, including passerine songbirds. Most songbirds with elevated concentrations of mercury are linked trophically to mercury-methylating environments—such as wetlands, streams, or lakes—and feed on spiders or emergent insects with aquatic larval stages. Methylmercury in the diet of reproducing female birds is transferred rapidly to the developing egg, and the embryo is the most sensitive life stage. Methylmercury exposure and its potential effects on reproductive success of invertivorous songbirds at GRPO has not been assessed but merits critical evaluation.”Item Minnesota's Network of Parks and Trails: An Inventory of Recreation Experience Opportunities in Minnesota: Northeast Region Profile(2010) Davenport, Mae; Schneider, Ingrid; Date, Andrea; Filter, LisaItem Points and Pits: Archaeological Investigations in Minnesota’s Region 9, the Lake Superior Shore, Carlton, Cook, Lake, and St. Louis Counties, Minnesota(2011) Mulholland, Susan C; Mulholland, Stephen L; Hamilton, Jennifer R; Stark, StaceyThis report is essentially an archeological survey of northeastern Minnesota’s coastal region, for which little is known about prehistoric human occupation. The authors first conducted a literature review, then carried out field investigations at 34 sites in 2010. Most of the sites were already known, and only four new sites suggesting historic use or habitation were found, all in Jay Cooke State Park. The study focused on sites that were not far from water. The report describes archeological and GIS methods used to select and explore the sites. The authors conclude that some progress has been made in contributing to a historical database for the region, but that much more remains to be discovered about prehistoric occupation on the Lake Superior shoreline. Key sections of the report are extracted and reproduced below. Summary: "This project was designed to add to our knowledge of Region 9, which was poorly known as a result of relatively few previously recorded. Four objectives were stated for the project to be conducted in three tasks. A summary of what is currently known about the prehistoric occupation of the region was the first task. Both literature and collections review were specifically included as sources. Updating the State Archaeologist site files for known sites and locating new sites was the second task, including both checking on sites reported by private collectors and new survey. The fourth objective was to develop a narrative predictive model of prehistoric site location for agency managers prehistoric archaeological sites (a total of 34). The field survey for new sites, most of which had to be conducted in fall 2010 before the ground froze, focused on a GIS compilation of several environmental factors previously thought to be important predictors of prehistoric site locations: distance to water (50 and 100 m) and slope (5%, 7%, 10%). Where possible, information on shoreline features from glacial lakes was also incorporated. Factors of access and land ownership (public lands preferable) were also compiled. Specific locations were then selected by the field archaeologist, drawing on decades of experience. Survey followed standard procedures, mainly shovel testing but pedestrian walkover where possible. Only four new archaeological sites were located, all in Jay Cooke State Park and all initially found by surface finds in Park trails. “Most of the areas selected for survey (County and City lands in St. Louis County, Split Rock Lighthouse State Park in Lake County, Judge Magney State Park in Cook County) were either negative or untestable. Concurrently with preparation for new survey, informant reports of new sites were recorded and, where possible, field verified in fall 2010. The response from members of the local archaeological society was overwhelming; over three dozen leads were given, about half for prehistoric sites and half for historic sites that might have prehistoric components. Additional site leads were supplied from members of the general public who heard of the project from media releases or by word of mouth. Although some site leads were either natural items or outside the Region 9 boundary, several prehistoric sites were recorded from this source. The data from both sources suggest that sites in Region 9 do tend to correlate to water, both past and present; however, specific numerical values for environmental variables are not as productive as viewing topography in the field. Areas of low slope are also high potential but not all flat area near water have site materials. Areas of low to no potential would include areas of steep slope (but not all area greater than 10% slope), water saturation (both permanent and seasonal), and/or areas at far distances from water (although quantitative measures are not firm). Much more research needs to be conducted to understand the pre-Contact occupation of the region, as well as develop a better predictive model of site location."Item Water Quality (2000-08) and Historical Phosphorus Concentrations from Paleolimnological Studies of Swamp and Speckled Trout Lakes, Grand Portage Reservation, Northeastern Minnesota(2010) Christensen, Victoria G; Jones, Perry M; Edlund, Mark B; Ramstack, Joy MA paleolimnological approach was taken to aid the Grand Portage Reservation, in northeastern Minnesota, in determining reference conditions for lakes on the reservation. The U.S. Geological Survey, in cooperation with the Grand Portage Band of Chippewa Indians and the Science Museum of Minnesota, conducted a study to describe water quality (2000–08) and historical total phosphorus concentrations (approximately 1781–2006) for Swamp and Speckled Trout Lakes. Results from this study may be used as a guide in establishing nutrient criteria in these and other lakes on the Grand Portage Reservation. Historical phosphorus concentrations were inferred through paleolimnological reconstruction methods involving diatom analysis and lead-210 dating of lake-sediment cores. Historical diatom-inferred total phosphorus concentrations in Swamp Lake ranged from 0.017 to 0.025 milligrams per liter (mg/L) based on diatom assemblages in sediment samples dated 1781–2005. Historical diatom-inferred total phosphorus concentrations in Speckled Trout Lake ranged from 0.008 to 0.014 mg/L based on diatom assemblages in sediment samples dated 1825–2006. In both lakes, historical changes in diatom-inferred total phosphorus concentrations did not exceed model error estimates, indicating that there has been minimal change in total phosphorus concentrations in the two lakes over about two centuries. The pH and alkalinity values of waters in both lakes indicate that general water-quality conditions likely are not threatening fish or acid-intolerant forms of aquatic life. Lake-sediment cores from Swamp and Speckled Trout Lakes were collected in 2006 and dated back to 1781 for Swamp Lake and 1825 for Speckled Trout Lake. A large increase in sediment accumulation rate after 1960 likely was a result of logging along the northeastern shore of Swamp Lake in 1958. The diatom flora of Swamp Lake is very diverse with more than 280 diatom taxa found in the core samples. These diatoms included many rare or uncommon species and several unknown taxa. Minor increases in sediment accumulation rates in the Speckled Trout Lake core occurred between 1840 and 1880. These increases may have resulted from fires following droughts in northeastern Minnesota. Heinselman (1973) identified five periods of fire in the 1800s for the Boundary Waters Canoe Area, Minnesota: 1801, 1824, 1863–64, 1875, and 1894. Most of these fire periods followed prolonged droughts of subcontinental extent, including the 1864 drought. Similar to the Swamp Lake core, the diatom flora of the Speckled Trout Lake core was very diverse and dominated by softwater diatoms. More than 215 diatom taxa were found in the core samples including many rare or uncommon species and several unknown taxa. Results of loss-on-ignition analyses indicated that sediment from Swamp Lake historically has been dominated by the inorganic component with a shift to an organic component in modern sedimentation. Median values of recent (2000–08) total phosphorus concentrations in water-quality samples and diatom-inferred phosphorus in recent sedimentation in Swamp and Speckled Trout Lakes were similar. These similarities, coupled with strong analogues for subfossil diatom communities for both lakes within the 89 Minnesota lakes diatom transfer function, indicate that recent and historical diatom-inferred phosphorus reconstructions might be used to help establish reference conditions and nutrient criteria for Grand Portage Reservation lakes when a sampling program is designed to ensure representative phosphorus concentrations in water samples are comparable to diatom-inferred concentrations.Item Water Resources of the Fond du Lac Indian Reservation, East-Central Minnesota(1989) Ruhl, James F; Fond du Lac Indian Reservation Business CommitteeThis interesting report presents the findings of a hydrologic study of the Fond du Lac Indian Reservation. The study is the outcome of a 1978 Federal mandate to the Bureau of Indian Affairs to review Indian water-rights claims in reservations throughout the United States. The Fond du Lac Indian Reservation study, done by the U. S. Geological Survey in cooperation with the Fond du Lac Indian Reservation Business Committee, is the first of the these studies undertaken in Minnesota under the Federal mandate. The report notes that ground water resources derive from three aquafers, and that surface waters derive from wetlands and surficial waters within the St. Louis River watershed. Except for a small number of well-water samples, water quality was found to be within EPA limits for pollutants and was determined to be safe for human and animal consumption. A few wells had elevated levels of lead and manganese; four principal streams contained E. coli and Streptococcus.Item Wild Rice: The Minnesota Legislature, a Distinctive Crop, GMOs, and Ojibwe Perspectives(2009) Walker, Rachel Kurkee; Doerfler, JillThis 26 page legal brief summarizes the history of treaty law, political debate, legislation in Minnesota related to wild rice, as well as the industry position (especially for Monsanto). The LEXISNEXIS Summary is reproduced below: “ ... Monsanto has never thought about engineering wild rice. ... History of Wild Rice Legislation in Minnesota In the 2005 legislative session, the Minnesota Senate tabled S.F. 1566, a version of the "wild rice bill" that prohibited the release and sale of genetically engineered wild rice in Minnesota. ... These explanations discount the legal realities of American Indian sovereignty and treaty-secured resource management, as well as the significance of the rights of sovereign nations to preserve Ojibwe identity and livelihood. ... From approximately the 1950s, with the introduction of cultivated wild rice and an increase in national and international market sales, some non-Indians grew increasingly interested in participating in wild rice cultivation and harvest. ... The following quotations from legislators during legislative hearings in 2006 and 2007 and from cultivated wild rice marketing companies capture some of the sentiments that non-Indian Minnesotans have with respect to both cultivating and eating wild rice: I am supporting this legislation because it is about wild rice and wild rice alone. ... At this point, we look briefly at the political and economic context of crop biotechnology in 2007 as it relates to this legislation. ... On March 31, 2007, the United States rice industry declared it wanted the federal government to reject a plan to grow genetically modified rice in Kansas, saying the country's growers would suffer "financial devastation" if modified crops contaminate the commercial supply.”